CN116373046A - Through type punching and slot-pulling machining center - Google Patents

Abstract

The invention belongs to the technical field of plate processing machinery, and particularly relates to a through type punching and slot-drawing processing center; the method specifically comprises the following steps: the machine comprises a frame part, a feeding table, an upper beam part, an upper machine head part, a lower beam part, a lower machine head part and a protective cover part. The processing center provided by the invention combines the through type punching and grooving processing center with the full-automatic drilling and edge sealing machine, and has obvious advantages in the aspects of reducing cost and efficiency, reducing labor intensity, reducing working procedures and the like.

Description

Through type punching and slot-pulling machining center

Technical Field

The invention relates to the technical field of plate processing machinery, in particular to a through type punching and grooving processing center.

Background

The traditional plate furniture production process requires three working procedures of material cutting, edge sealing and drilling. From the initial blanking machine, edge banding machine, the side hole machine is developed into the blanking machine, edge banding machine, six-face drill, and the powerful large-scale factory is gradually upgraded with automatic connection. The application of the six-face drill greatly improves the production efficiency and the precision, but in the production process, the plates are processed block by block, so that the problem of high labor intensity is solved, the working procedures are numerous, and the plates are easy to collide and damage. Meanwhile, through years of development, the profit of the plate type furniture industry is lower and lower, and how to greatly improve the production efficiency, reduce the loss and the labor cost become the problems that a plurality of furniture enterprises have to consider.

Disclosure of Invention

The invention aims to provide a through type punching and grooving machining center which aims to solve the problems of low production efficiency, high labor intensity and multiple working procedures in the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the through type punching and slot-pulling machining center comprises

A frame portion including a frame disposed on a ground;

the feeding table is a lifting device and is arranged on one side of the frame;

an upper beam portion including an upper beam fixed to a frame in the frame portion;

the upper machine head part is connected with an upper cross beam guide rail of the upper cross beam part through an upper machine head sliding block;

a lower beam portion including a lower beam fixed to a frame in the frame portion;

the lower machine head part comprises a lower machine head sliding block, and the lower machine head sliding block is connected with a lower cross beam guide rail of the lower cross beam part;

and the shield support legs in the shield part are fixed on the frame.

Further, the frame part further comprises a lathe bed linear guide rail, a lathe bed rack, a pushing mechanism, a gripper, a side pushing cylinder and a front positioning cylinder; the lathe bed linear guide rail and the lathe bed rack are fixed on the frame; the pushing mechanism is in sliding connection with the linear guide rail of the lathe bed through a pushing sliding block; the gripper is in sliding connection with the linear guide rail of the lathe bed through a gripper sliding block; the side pushing cylinder and the front positioning cylinder are fixed on the frame.

Further, the upper beam part further comprises an upper beam guide rail, an upper beam rack, an oil receiving groove and an electric box; the upper beam guide rail, the upper beam rack, the oil receiving groove and the electric box are respectively fixed on the upper beam.

Further, the upper machine head part further comprises an upper machine head gear, an upper gang drill, an X-axis motor, an upper main shaft cylinder, a Z-axis screw rod and a Z-axis motor;

the upper gang drill is fixed on the gang drill main shaft sliding plate through an upper gang drill mounting plate; the gang drill main shaft sliding plate is arranged on an upper cross sliding plate through a first guide rail pair, and the upper cross sliding plate is fixed on the upper head sliding block;

the upper machine head gear is arranged on the upper machine head speed reducer; the upper machine head speed reducer is fixed on the upper cross slide plate;

the X-axis motor is connected with the upper machine head speed reducer; the upper main shaft is fixed on the gang drill main shaft sliding plate through a second guide rail pair; one end of the upper spindle cylinder is fixed on the gang drill spindle sliding plate, and the other end of the upper spindle cylinder is connected with the upper spindle; the Z-axis lead screw is fixed on the upper cross slide plate, the Z-axis motor is fixed on the upper cross slide plate, and the other end of the Z-axis motor is connected with the Z-axis lead screw.

Further, the lower beam part further comprises a lower beam rack, a lower beam guide rail, a limiting pile and a table surface, and the lower beam rack, the lower beam guide rail, the limiting pile and the table surface are respectively fixed on the lower beam.

Further, the lower machine head part further comprises a lower machine head gear, a lower machine head speed reducer, a lower machine head first motor, a lower machine head second motor, a lower main shaft and a lower gang drill;

the lower gang drill is fixed on the third guide rail pair through a lower gang drill main shaft sliding plate; the third guide rail pair is fixed on the lower head slider through a lower cross slide plate; the lower machine head gear is arranged on a lower machine head speed reducer, and the first motor of the lower machine head is connected with the lower machine head speed reducer; the lower head speed reducer is fixed on the lower cross slide plate;

the lower main shaft is fixed on the lower gang drill main shaft sliding plate through a fourth guide rail pair;

the second motor of the lower machine head is fixed on the lower cross slide plate, and the other end of the second motor is connected with the screw rod of the lower machine head.

The beneficial effects of the invention are as follows:

(1) According to the machining center provided by the invention, the X-axis motor of the upper machine head part rotates to drive the upper machine head speed reducer to rotate and simultaneously drive the upper machine head gear to rotate, and the upper machine head gear is meshed with the upper cross beam rack, so that the upper machine head part can move along the upper cross beam. The first motor of the lower machine head in the lower machine head part rotates to drive the lower machine head speed reducer to rotate and simultaneously drive the lower machine head gear to rotate, and the lower machine head gear is meshed with the rack of the lower cross beam, so that the lower machine head part can move left and right along the lower cross beam;

(2) According to the machining center provided by the invention, the Z-axis motor of the upper machine head part rotates to drive the Z-axis screw rod to rotate, so that the upper gang drill of the upper machine head part and the vertical movement of the upper main shaft are realized; a lower machine head second motor in the lower machine head part rotates to drive a lower machine head screw rod to rotate so as to realize vertical movement of a lower gang drill and a lower main shaft; thereby realizing that the upper and lower surfaces of the processed plate are perforated and grooved simultaneously;

(3) The processing center provided by the invention combines the through type punching and grooving processing center with the full-automatic drilling and edge sealing machine, and has obvious advantages in the aspects of reducing cost and efficiency, reducing labor intensity, reducing working procedures and the like.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of a frame portion of the present invention;

FIG. 3 is a schematic view of a loading table portion according to the present invention;

FIG. 4 is a schematic view of the upper beam portion of the present invention;

FIGS. 5 and 6 are schematic views showing the structure of the upper head part of the present invention;

FIG. 7 is a schematic view of the structure of the lower beam portion of the present invention;

FIGS. 8 and 9 are schematic views showing the structure of the lower head part of the present invention;

FIG. 10 is a schematic view of the structure of the present invention;

in the figure, 1, a rack; 2. a bed linear guide rail; 3. a lathe bed rack; 4. a pushing mechanism; 5. a pushing slide block; 6. a gripper slide block; 7. a grip; 8. a side pushing cylinder; 9. a front positioning cylinder; 11. a lifter; 12. processing a plate; 13. an upper cross beam; 14. an upper cross beam guide rail; 15. an upper cross beam rack; 16. an oil receiving groove; 17. an electric box; 18. a head slider; 19. an upper head gear; 20. a cross slide plate is arranged on the upper part; 21. a first guide rail pair; 22. gang drill main shaft sliding plate; 23. an upper gang drill mounting plate; 24. upward gang drill; 25. an upper machine head speed reducer; 26. an X-axis motor; 27. a second guide rail pair; 28. an upper main shaft; 29. an upper spindle cylinder; 30. a Z-axis lead screw; 31. a Z-axis motor; 32. a lower cross beam; 33. a lower cross beam rack; 34. a lower cross beam guide rail; 35. spacing piles; 36. a table top; 37. a lower head slider; 38. a lower cross slide plate; 39. a lower head gear; 40. a lower machine head speed reducer; 41. a lower machine head first motor; 42. a lower machine head second motor; 43. a third guide rail pair; 44. a lower machine head screw rod; 45. a lower spindle; 46. a main shaft sliding plate of the lower gang drill; 47. a fourth guide rail pair; 48. a lower spindle cylinder; 49. discharging gang drill; 50. a left side shield; 51. a front panel; 52. a shield leg; 53. a right side shield.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Embodiment 1 through type punching and slot-drawing machining center, the whole structure is shown with reference to fig. 1, and the machine comprises a frame part, a feeding table, an upper beam part, an upper machine head part, a lower beam part, a lower machine head part and a protective cover part, wherein the frame 1 of the frame part and the feeding table are placed on the ground, an upper beam 13 in the upper beam part is fixed on the frame 1 of the frame part by screws, and the upper machine head part is connected with an upper beam guide rail 14 through an upper machine head sliding block 18, so that the upper beam can slide. The lower cross beam 32 in the lower cross beam portion is screwed to the frame 1 in the frame portion, and the lower head slider 37 in the lower head portion is connected to the lower cross beam rail 34 of the lower cross beam portion, thereby allowing the lower head to slide on the lower cross beam, and the shield legs 52 in the shield portion are screwed to the frame 1.

Specifically, in the present embodiment, the structure of the frame portion is shown with reference to fig. 2. As can be seen from fig. 2, the linear guide rail 2 of the machine body is mounted on the machine frame 1 through screws, the rack 3 of the machine body is fixed on the machine frame 1 through screws, the pushing mechanism 4 is mounted on the pushing slide block 5, the gripper 7 is mounted on the gripper slide block 6, and both the gripper slide block 6 and the pushing slide block 5 slide on the linear guide rail 2 of the machine body, so that the pushing mechanism 4 and the gripper 7 can slide on the machine frame 1. The side pushing cylinder 8 and the front positioning cylinder 9 are fixed on the frame 1 by screws.

In this embodiment, the structure of the loading table portion is shown with reference to fig. 3. As can be seen from fig. 3, the lifter 11 of the loading table section is placed on the ground, and the processed sheet 12 is placed on the lifter 11.

The structure of the upper beam portion is shown with reference to fig. 4; the upper beam guide rail 14 is fixed on the upper beam 13 by bolts, the upper beam rack 15 is fixed on the upper beam 13 by bolts, the oil receiving groove 16 is fixed on the upper beam 13 by bolts, and the electric box 17 is fixed on the upper beam 13; the upper beam 13 is fixed with the frame 1 by screws.

Referring to fig. 5 and 6, the upper head part has the following composition: the upper cross slide plate 20 is fixed on the upper head slide block 18 by screws, the first guide rail pair 21 is fixed on the upper cross slide plate 20 by screws, the gang drill main shaft slide plate 22 is fixed on the first guide rail pair 21 by screws, the upper gang drill mounting plate 23 is fixed on the gang drill main shaft slide plate 22 by screws, the upper gang drill 24 is fixed on the upper gang drill mounting plate 23 by screws, the upper head gear 19 is mounted on the upper head speed reducer 25 by screws, the upper head speed reducer 25 is fixed on the upper cross slide plate 20, and the X-axis motor 26 is connected with the upper head speed reducer 25 by screws. The second guide rail pair 27 is mounted on the gang drill main shaft slide plate 22 by screws, the upper main shaft 28 is fixed on the second guide rail pair 27 by screws, one end of the upper main shaft cylinder 29 is fixed on the gang drill main shaft slide plate 22 by screws, the other end of the upper main shaft cylinder is connected with the upper main shaft 28, the Z-axis screw 30 is fixed on the upper cross slide plate 20, the Z-axis motor 31 is fixed on the upper cross slide plate 20, and the other end of the Z-axis screw 30 is connected with the Z-axis screw.

Referring to fig. 7, the lower beam portion has the following composition: the lower beam rack 33 is fixed on the lower beam 32 by bolts, the lower beam guide rail 34 is fixed on the lower beam 32 by bolts, the limit pile 35 is fixed on the lower beam 32, the table 36 is fixed on the lower beam 32 by bolts, and the lower beam 32 is fixed on the frame 1 by bolts.

Referring to fig. 8 and 9, the lower head portion has the following composition: the lower cross slide plate 38 is fixed on the lower head slide block 37 by screws, the third guide rail pair 43 is fixed on the lower cross slide plate 38 by screws, the lower gang drill main shaft slide plate 46 is fixed on the third guide rail pair 43 by screws, the lower gang drill 49 is fixed on the lower gang drill main shaft slide plate 46 by screws, the lower head gear 39 is mounted on the lower head speed reducer 40 by screws, the lower head speed reducer 40 is fixed on the lower cross slide plate 38, and the lower head first motor 41 is connected with the lower head speed reducer 40 by screws. The fourth guide rail pair 47 is mounted on the lower gang drill spindle slide plate 46 by screws, the lower spindle 45 is fixed on the fourth guide rail pair 47 by screws, one end of the lower spindle cylinder 48 is fixed on the lower gang drill spindle slide plate 46 by screws, the other end is connected with the lower spindle 45, the lower head screw 44 is fixed on the lower cross slide plate 38, the lower head second motor 42 is fixed on the lower cross slide plate 38, and the other end is connected with the lower head screw 44.

Referring to fig. 10, the composition of the cover portion is as follows: the left shroud 50 is screwed to the shroud leg 52, the right shroud 53 is screwed to the shroud leg 52, the front panel 51 is screwed to the left shroud 50 and the right shroud 53, and the shroud leg 52 is screwed to the chassis 1, thereby realizing the integral fixation of the shroud portion to the chassis portion.

The invention provides a through type punching and broaching machining center, which comprises the following overall machining processes:

firstly, the lifter 11 is lowered to the lowest, then the processed plate 12 is placed on the lifter 11, the lifter 11 is automatically lifted to a certain height and then stopped, the pushing mechanism 4 moves along the frame 1 to push the processed plate 12 onto the table 36, the front end of the processed plate 12 is stopped after touching the front positioning cylinder 9, the side pushing cylinder 8 pushes the processed plate 12 onto the gripper 7, and the gripper 7 grips the processed plate 12 to enable the processed plate 12 to move along the direction of the frame 1. The X-axis motor 26 of the upper head part rotates to drive the upper head speed reducer 25 to rotate and simultaneously drive the upper head gear 19 to rotate, and the upper head gear 19 is meshed with the upper beam rack 15, so that the upper head part can move along the upper beam. The lower head first motor 41 in the lower head part rotates to drive the lower head speed reducer 40 to rotate and simultaneously drive the lower head gear 39 to rotate, and the lower head gear 39 is meshed with the lower beam rack 33, so that the lower head part can move left and right along the lower beam. The upper nose portion Z-axis motor 31 rotates to drive the Z-axis screw 30 to rotate, thereby realizing the vertical movement of the upper gang drill 24 and the upper spindle 28 of the upper nose portion. Rotation of the lower head second motor 42 in the lower head section rotates the lower head lead screw 44 to effect vertical movement of the lower gang drill 49 and lower spindle 45. Thus, the upper and lower surfaces of the processed plate 12 can be perforated and grooved simultaneously, when the processed plate 12 needs to be perforated, the upper gang drill 24 and the lower gang drill 49 can work simultaneously, when the processed plate 12 needs to be grooved, the upper spindle cylinder group 29 pushes the upper spindle 28 to extend, the lower spindle cylinder 48 pushes the lower spindle 45 to extend, so that the rapid switching of two processing processes of perforation and grooved is realized, the processed plate 12 is sent out by the gripper 7 after the processing is finished, and the continuous processing of the actions is continuously circulated.

The equipment provided by the invention combines the through type punching and grooving processing center with the full-automatic drilling and edge sealing machine, and has obvious advantages in the aspects of reducing cost and efficiency, reducing labor intensity, reducing working procedures and the like.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (6)

1. The through type punching and broaching machining center is characterized by comprising

A frame part comprising a frame (1), the frame (1) being placed on the ground;

the feeding table is a lifting device and is arranged on one side of the frame (1);

an upper beam portion including an upper beam (13), the upper beam (13) being fixed to a frame (1) in the frame portion;

the upper machine head part is connected with an upper cross beam guide rail (14) of the upper cross beam part through an upper machine head sliding block (18);

a lower beam portion comprising a lower beam (32), the lower beam (32) being fixed to a frame (1) in the frame portion;

a lower head portion comprising a lower head slider (37), the lower head slider (37) being connected to a lower beam rail (34) of the lower beam portion;

and a shield portion in which shield legs (52) are fixed to the frame (1).

2. The through-type perforating and grooving center according to claim 1, wherein the frame part further comprises a bed linear guide (2), a bed rack (3), a pushing mechanism (4), a gripper (7), a side pushing cylinder (8) and a front positioning cylinder (9); the lathe bed linear guide rail (2) and the lathe bed rack (3) are fixed on the frame (1); the pushing mechanism (4) is in sliding connection with the lathe bed linear guide rail (2) through a pushing sliding block (5); the gripper (7) is connected with the lathe bed linear guide rail (2) in a sliding way through a gripper sliding block (6); the side pushing cylinder (8) and the front positioning cylinder (9) are fixed on the frame (1).

3. The through-hole punch and broaching machine center according to claim 1, wherein the upper beam portion further includes an upper beam rail (14), an upper beam rack (15), an oil receiving slot (16), and an electrical box (17); the upper beam guide rail (14), the upper beam rack (15), the oil receiving groove (16) and the electric box (17) are respectively fixed on the upper beam (13).

4. The through-hole punch and broaching center of claim 1, wherein the upper nose portion further includes an upper nose gear (19), an upper gang drill (24), an X-axis motor (26), an upper spindle (28), an upper spindle cylinder (29), a Z-axis lead screw (30), and a Z-axis motor (31);

the upper gang drill (24) is fixed on the gang drill main shaft sliding plate (22) through an upper gang drill mounting plate (23); the gang drill main shaft sliding plate (22) is arranged on the upper cross sliding plate (20) through a first guide rail pair (21), and the upper cross sliding plate (20) is fixed on the upper machine head sliding block (18);

the upper machine head gear (19) is arranged on an upper machine head speed reducer (25); the upper machine head speed reducer (25) is fixed on the upper cross slide plate (20);

the X-axis motor (26) is connected with the upper machine head speed reducer 25; the upper main shaft (28) is fixed on the gang drill main shaft sliding plate (22) through a second guide rail pair (27); one end of the upper spindle cylinder (29) is fixed on the gang drill spindle sliding plate (22), and the other end of the upper spindle cylinder is connected with the upper spindle (28); the Z-axis screw rod (30) is fixed on the upper cross slide plate (20), the Z-axis motor (31) is fixed on the upper cross slide plate (20), and the other end of the Z-axis motor is connected with the Z-axis screw rod (30).

5. The through-hole punch and broaching machine center according to claim 1, wherein the lower beam portion further includes a lower beam rack (33), a lower beam rail (34), a stopper pile (35) and a table top (36), the lower beam rack (33), the lower beam rail (34), the stopper pile (35) and the table top (36) being fixed to the lower beam (32), respectively.

6. The through-hole punch and broaching center of claim 1, wherein the lower nose portion further includes a lower nose gear (39), a lower nose speed reducer (40), a lower nose first motor (41), a lower nose second motor (42), a lower spindle (45), a lower gang drill (49);

the lower gang drill (49) is fixed on the third guide rail pair (43) through a lower gang drill main shaft sliding plate (46); the third guide rail pair (43) is fixed on the lower machine head sliding block (37) through a lower cross sliding plate (38); the lower machine head gear (39) is arranged on a lower machine head speed reducer (40), and the lower machine head first motor (41) is connected with the lower machine head speed reducer (40); the lower head speed reducer (40) is fixed on the lower cross slide plate (38);

the lower spindle (45) is fixed on the lower gang drill spindle sliding plate (46) through a fourth guide rail pair (47);

the lower head second motor (42) is fixed on the lower cross slide plate (38), and the other end of the lower head second motor is connected with a lower head screw (44).

Images